Adenoviral gene transfer of bioactive TGFbeta1 to the rodent eye as a novel model for anterior subcapsular cataract.

PURPOSE

To produce a gene-transfer model of rodent anterior subcapsular cataracts (ASC) using a replication-deficient, adenoviral vector containing active TGFbeta1. Establishment of this model will be important for further investigations of TGFbeta-induced signaling cascades in ASC.

METHODS

Adenovirus containing the transgene for active TGFbeta1 (AdTGFbeta1), beta-galactosidase (AdLacZ), green fluorescent protein (AdGFP) or no transgene (AdDL) was injected into the anterior chamber of C57Bl/6, Smad3 WT and Smad3 KO mice. Four and 21 days after injection, animals were enucleated and eyes were processed and examined by routine histology. Immunolocalization of markers indicative of epithelial to mesenchymal transition (EMT), fibrosis, proliferation and apoptosis was also carried out.

RESULTS

By day 4, treatment with AdLacZ demonstrated transgene expression in multiple structures of the anterior chamber including the lens epithelium. In contrast to AdDL, treatment with AdTGFbeta1 produced alphaSMA-positive subcapsular plaques in all three groups of mice, which shared features reminiscent of human ASC. At day 21, plaques remained alphaSMA-positive and extensive extracellular matrix deposition was observed. The AdTGFbeta1 model was further employed in Smad3 deficient mice and this resulted in the development of small ASC.

CONCLUSIONS

Gene transfer of active TGFbeta1 using an adenoviral vector produced cataractous plaques four days postinjection, which were found to develop independent of functional Smad3.